Nexcom EBC 500 User Manual

www.nexcom.com

Single Board Computer

EBC 500 Series

User’s Manual

10-20-2006 Build

EBC 500 User’s Manual 1 Table of Content

Preface

Copyright

This publication, including all photographs, illustrations and software, is protected under
international copyright laws, with all rights reserved. No part of this manual maybe reproduced,
copied, translated or transmitted in any form or by any means without the prior written consent
from NEXCOM International Co., Ltd.
Version 1.0
Copyright 2006

Disclaimer

The information in this document is subject to change without prior notice and does not represent
commitment from NEXCOM International Co., LTD. However, users may update their knowledge
of any product in use by constantly checking its manual posted on our website:
http://www.nexcom.com. NEXCOM shall not be liable for direct, indirect, special, incidental, or
consequential damages arising out of the use of any product, nor for any infringements upon the
rights of third parties, which may result from such use. Any implied warranties of merchantability of
fitness for any particular purpose is also disclaimed.

Acknowledgements

The EBC 500 series is a trademark of NEXCOM international CO., LTD. All other product names
mentioned herein are registered trademarks of their respective owners.

Regulatory Compliance Statements

This section provides the FCC compliance statement for Class A devices and describes how to
keep the system CE compliant.

Federal Communications Commission (FCC) For Class A Device

This equipment has been tested and verified to comply with the limits for a Class A digital device,
pursuant to Part 15 of FCC Rules. These limits are designed to provide reasonable protection
against harmful interference when the equipment is operated in a commercial environment. This
equipment generates, uses, and can radiate radio frequency energy and, if not installed and used
in accordance with the instructions, may cause harmful interference to radio communications.
Operation of this equipment in a residential area (domestic environment) is likely to cause harmful
interference, in which case the user will be required to correct the interference (take adequate

EBC 500 User’s Manual 2 Table of Content

measures) at their own expense.

CE Certification

The product(s) described in this manual complies with all applicable European Union (CE)
directives if it has a CE marking. For computer systems to remain CE compliant, only
CE-compliant parts may be used. Maintaining CE compliance also requires proper cable and
cabling techniques.

WARNINGS

Read and adhere to all warnings, cautions, and notices in this guide and
the documentation supplied with the chassis, power supply, and accessory
modules. If the instructions for the chassis and power supply are inconsistent
with these instructions or the instructions for accessory modules, contact
the supplier to find out how you can ensure that your computer meets
safety and regulatory requirements.

CAUTION

Electrostatic discharge (ESD) can damage NSA components. Do the
described procedures only at an ESD workstation. If no such station is
available, you can provide some ESD protection by wearing an antistatic
wrist strap and attaching it to a metal part of the computer chassis.

Safety Information

Before installing and using the EBC 500, note the following precautions:

 Read all instructions carefully.
 Do not place the unit on an unstable surface, cart, or stand.
 Follow all warnings and cautions in this manual.
 When replacing parts, ensure that your service technician uses parts specified by the

manufacturer.
 Avoid using the system near water, in direct sunlight, or near a hearing device.

EBC 500 User’s Manual 3 Table of Content

Table of Content

Preface

2

Copyright 2
Disclaimer 2
Acknowledgements 2
Regulatory Compliance Statements 2
Federal Communications Commission (FCC) For Class A Device 3
CE Certification 3
Safety Information 3
Table of Content 3
Chapter 1 General Information

1.1 Main Feature 5

1.2 Specifications 8

1.3 Power Consumption Measurement 10

1.4 Board Layout 11

1.5 Board Dimensions 12
Chapter 2Jumper Setting

2.1 Before You Begin 14

2.2 Precautions 14

2.3 Setting Jumpers 15

2.4 Location of Jumpers 16

2.5 Function of Jumper 17

2.6 Power Consumption 30

Chapter 3 Expansion

3.1 System Memory 32

3.2 Installing DIMM 32

3.3 Installing Compact Flash 34

EBC 500 User’s Manual 4 Table of Content

新漢電腦股份有限公司

EBC / ICES/ ICEB…

NEXCOM International Co., Ltd.

General Information

Chapter 1

8.5X11 5 Q410000-03AA

新漢電腦股份有限公司

EBC / ICES/ ICEB…

NEXCOM International Co., Ltd.

1.1 Product Feature

 Intel Core Solo & Core Duo and Core 2 Duo Processor Family support
 Intel 945GM Chipsets
 Two 240-pin DDR2 DIMM Socket support un-buffered non-ECC DDR2 400/533/667 up to 4GB
 Intel 82573L PCI Express Gigabit LAN X 2
 Support LVDS /VGA Display and one x16 PCI Express slot
 CompactFlash Socket

Product Overview:

EBC 500 is a 5.25” embedded board featuring Intel Core Solo, Core Duo and Core 2 Duo processor with

533/667 MHz FSB; speed up to 2.33 (2.0) GHz.

The EBC 500 offers high performance and various processors and PCI Express; versatile display and I/O port

selections, which is the best solution for advanced embedded applications.

8.5X11 6 Q410000-03AA

新漢電腦股份有限公司

Block Diagram:

EBC / ICES/ ICEB…

NEXCOM International Co., Ltd.

8.5X11 7 Q410000-03AA

EBC 500 User’s Manual 8 Chapter 1

1.2 Specification:

*General

CPU

 Intel® Core Solo and Core Duo family processors
 Core 2 Duo family CPU (optional)

Front Side Bus  533/667 MHz
Chipset  Intel 945GM and ICH7-DHM

Memory

 2 x 240-pin DIMM socket, up to 4GB un-buffered non-ECC DDR 533/667

SDRAM

Super I/O  ITE 8712F

BIOS

 Award system BIOS
 Plug & Play support
 Advanced Power Management and Advanced Configuration & Power

Interface support

 4M bits flash ROM

Expansion interface

 1 x PCI Slot
 1 x PCI Express x 16 Slot

Dimensions (Lx W) mm/inch  203mm(L) x 143mm(W)
System Management

*Watchdog Timer

 1 minute increments from 1 to 255 minutes

 1 second increments from 1 to 255 seconds

 Tolerance 15% under room temperature 25°C

Monitoring

 Derived from Super IO to support system monitor.
 Monitoring of 5 voltages, 3 temperature and 3 fans Speed.

5 voltage (For +3.3V, +5V, +12V, Vcore and +2.5V)
3 Temperatures (CPU, two external Temperature Sensor)
3 FANs speed (CPU and System FANs)

*Display

Chipset

 Intel® 945GM integrated graphics solution w/ Intel® Extreme Graphics 2

technology

Display Memory  Up to 64 MB of dynamic video memory allocation

 CRT- Analog Display Support
 Drive a standard progressive scan analog monitor with pixel resolution

up to 1600x1200 at 85 Hz, 2048x1536 at75Hz

 LVDS - LFP (local flat panel) LVDS interface
 Single- or dual-pixel LVDS panel support up to UXGA panel resolution

(1600x1200)

 Wide Screen Resolution support 848x480 and 1366x768
 TV Out - Support S-Video up to 1024 x 768 NTSC/PAL and 1080p HDTV

Display interface and
Resolution

 CCFL x1 for LCD Panel Backlight Inverter Power

Pin 2,3 support 12VDC power source for inverter:
Max. 12VDC@2A for each

*Ethernet

Controller

 Intel® 82573L PCI Express Gigabit Ethernet Controller x 2 supporting

two GbE LAN ports

 Support Boot From LAN (PXE)
 Support Wake on LAN (When 5Vsb power available). (LAN1 only)

Interface  RJ45 with LED connecter x 2

LED

 Active, Link 100, and 1000 LAN LED
 LAN Status LED defined:

10: LED Off / 100: Green LED / 1000: Orange LED

EBC 500 User’s Manual 9 Chapter 1

 Extra (External) LED: 2 x 4 pin header

*Audio

AC97 Audio CODEC

 Realtek RTL655 CODEC for AC97 v2.1 CODEC
 Line in with pin header
 Microphone in and Speaker out Interface

*I/O Interface

USB 2.0

 6 x USB 2.0 port (2 on front, 4 on Board by one 2.0 mm JST

Connectors), bandwidth: 480 Mb/s

Serial ports

 SIO× 4, support RS-232 with pin headers
 1 x3-pin jumper to switch 5V and 12V power source

Parallel ports  1 x Box header 26-pin connector
PS/2  1 x PS/2 connector for Keyboard and Mouse

GPIO

 8 GPIO lines via header (GPI 0~3 and GPO 0~3); GPO0 and GPO1

could be connected to LED for programmable feature

 TTL Level (0/5V)

FAN

 1x 4-pin FAN JST connector (for CPU)
 2x 3-pin FAN connector x 2 (for System)

IrDA On board pin header for IrDA Tx Rx

Others

 On Board buzzer
 Power LED/HDD Power LED
 SMBus 2.0 controller (2 pin header)
 On board 2 pin header for reset (for power on button switch)

On-board RTC

 On-chip RTC with battery back up
 External Lithium battery x 1
 RTC Tolerance less than 2sec (24 hours) under 25˚C environment

*Storage Support

CF

 1x Internal CompactFlash socket
 Support One Type I& II Compact Flash Card (Primary Master)

SATA  2 x SATA ports, support Raid 0,1, bandwidth: 150 MB/s
IDE  1 x 44-pin IDE connector
Disk on Module  1 x 2-pin Jst power (+5V,GND ) for DOM
*Power Supply

Type

 Support both AT and ATX Mode
 Factory default setting is AT mode

ATX mode

 +5V / -5V / 5Vsb Power In (+12V/-12V for PC 104 plus)
 When Change to ATX Mode, the BIOS default setting is as follow:

POWER -SUPPLY TYPE  [ATX]
AUTO PWR-FAILURE RESUME  [ON]

AT mode

 +5V Power in
 No Power On push Button, Software Shutdown function and LAN remote

wake up

Power consumption 43.2 W in 12V, 121.2 W in 5V, and 11.5W in 5Vsb
Drivers
Windows 2000/2003, XP, Linux
*Environment
Operating Temperature 0°C ~ 60°C
Storage Temperature -20˚C to 85˚C

Relative Humidity

 Operating 10%~90%, non-condensing
 Non-operating 5%~95%, non-condensing

* Certifications

CE approval
FCC Class A

EBC 500 User’s Manual 10 Chapter 1

Ordering Information:

EBC 500

(P/N: 1E00050000X0)

5.25” Embedded Board supporting Intel Core Solo, Core Duo and

Core 2 Duo CPU w/VGA/ Dual LVDS/Audio/4 COMs/6 USB2.0 /Dual

Gigabit LAN

1.3 Power Consumption Measurement

Chipset Vcore

Yonah

CPU(1.

2V)

VTT

+1.05

V

+1.8V +0.9V +1.5V +2.5V +3.3V +1.2V +3.3V

SB

+5VSB +5V

Total Current

(Unit: A )

36 8 10 1 13.4 0.6 8.12 1.6 0.35 1.7 8.5

Total Watt

(Unit: W )

43.2 8.4 18 0.9 20.1 1.5 26.8 1.92 1.155 8.5 42.5

Transfer Votage

(Unit:V)

+12V +5V +5V +5V +5V +5V +5V 3VSB 5VDUAL

Power supply must consumed watts and currents

Power Type

+12V +5V +5VSB

Consumed watts(Item: W ) 43.2 121.2 11.5

Consumed currents (Item A ) 3.6 24.24 2.3

Actually required currents (Item

A/0.8 )

4.5 30.3 2.85

EBC 500 User’s Manual 11 Chapter 1

1.4 Board Layout

Figure 1.2: Overview of EBC 500

EBC 500 User’s Manual 12 Chapter 1

1.5 Board Dimensions

Figure 1.3: Mechanical Drawing of the EBC 500

EBC 500 User’s Manual 13

Chapter 2

Jumper Setting

EBC 500 User’s Manual 14

This chapter of the User’s Manual describes how to set jumpers.

Note: The procedures that follow are generic for all EBC 500 series.

2.1 Before You Begin

Ensure you have a stable, clean working environment. Dust and dirt can get into components
and cause a malfunction. Use containers to keep small components separated.

Adequate lighting and proper tools can prevent you from accidentally damaging the internal
components. Most of the procedures that follow require only a few simple tools, including the
following:

• A Philips screwdriver • A flat-tipped screwdriver

• A set of jewelers Screwdrivers • A grounding strap

• An anti-static pad

Using your fingers can disconnect most of the connections. It is recommended that you do not
use needle-nosed pliers to disconnect connections as these can damage the soft metal or plastic
parts of the connectors.

Before working on internal components, make sure that the power is off. Ground yourself before
touching any internal components, by touching a metal object. Static electricity can damage
many of the electronic components. Humid environment tend to have less static electricity than
dry environments. A grounding strap is warranted whenever danger of static electricity exists.

2.2 Precautions

Computer components and electronic circuit boards can be damaged by discharges of static
electricity.
Working on the computers that are still connected to a power supply can be extremely dangerous.
Follow the guidelines below to avoid damage to your computer or yourself:

• Always disconnect the unit from the power outlet whenever you are working inside the case.

• If possible, wear a grounded wrist strap when you are working inside the computer case.
Alternatively, discharge any static electricity by touching the bare metal chassis of the unit
case, or the bare metal body of any other grounded appliance.

• Hold electronic circuit boards (such as the EBC 500 board) by the edges only. Do not touch
the components on the board unless it is necessary to do so. Don’t flex or stress the circuit
board.

• Leave all components inside the static-proof packaging that they shipped with until they are
ready for installation.

• Use correct screws and do not over tighten screws.

EBC 500 User’s Manual 15

2.3 Setting Jumpers

A jumper is the simplest kind of electric switch. It consists of two metal pins and a cap. When
setting the jumpers, ensure that the jumper caps are placed on the correct pins. When the jumper
cap is placed on both pins, the jumper is SHORT. If you remove the jumper cap, or place the
jumper cap on just one pin, the jumper is OPEN. Please see the following illustrations

The illustrations on the right
show a 2-pin jumper. When the
jumper cap is placed on both
pins, the jumper is SHORT. If
you remove the jumper cap, or
place the jumper cap on just
one pin, the jumper is OPEN.

Open (Off) Short (On)

These illustrations show a
3-pin jumper. Pins 1 and 2 are

SHORT.

Table 2-1: Setting Jumpers

EBC 500 User’s Manual 16

2.4 Location of Jumpers

Compact

Flash

L
P
T

J11

J10

CN4

JP13

JP4
JP7

JP14

JP1

JP11

JP21

JP18

JP16

JP15

JP17

JP8JP5

JP20

J1

J5

J2

CON 1 (ATX Power CON.)

Figure 2-1: Jumper Location

V
G
A

COM x 4

CPU

NB

(INTEL,945GM)

SB

(INTEL,ICH7)

JP6

JP12

1

1

JP9 PCI-e x 16 Slot

LAN1

LAN2

USBx

2

KB/
MS

CON 2 (ATX AUX

Power CON.)

SATA SATA

DIMM

x 2

PCI

1
1

1

11

1

111

1

1
1

111

1

1

1

1

=PIN 1

LVDS

LVDS

CCFL

TV-out USB USB

MIC
IN

1

1

1

Speaker

Out

JP2 J4J6

IDE

1

J3

J7

1

1
1

JP19

JP3

1

EBC 500 User’s Manual 17

2.5 Functions of Jumpers and Connectors

(1) SATA1/SATA0 connector (J8,J9)

A . Connector size : 7 Pin , 1.27mm ,180°, SATA Connector
B . Connector location

C. Connector pin definition

Pin Definition Pin Definition

1 GND 5 SATA_RXN

2 SATA_TXP 6 SATA_RXP

3 SATA_TXN 7 GND

4 GND

(2) PIO Connector (CN1)

A . Connector size : 2 X 13 = 26 Pin ,2.0 mm, 180° ,BOX Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 Line Print Strobe 14 Auto Feed#

2 Parallel Data 0 15 Error#

3 Parallel Data 1 16 Initialize#

4 Parallel Data 2 17 Select Input#

5 Parallel Data 3 18 GND

6 Parallel Data 4 19 GND

7 Parallel Data 5 20 GND

8 Parallel Data 6 21 GND

9 Parallel Data 7 22 GND

10 Acknowledge# 23 GND

11 Busy 24 GND

12 Paper empty 25 GND

13 Select 26 NC

EBC 500 User’s Manual 18

(3) SIO Connector (CN6)

A . Connector size: 2 X 20 = 40 Pin ,2.0 mm, 180° ,BOX Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 DCD1 21 DCD3

2 DSR1 22 DSR3

3 RXD1 23 RXD3

4 RTS1 24 RTS3

5 TXD1 25 TXD3

6 CTS1 26 CTS3

7 DTR1 27 DTR3

8 RI1 28 RI3

9 GND 29 GND

10 NC 30 NC

11 DCD2 31 DCD4

12 DSR2 32 DSR4

13 RXD2 33 RXD4

14 RTS2 34 RTS4

15 TXD2 35 TXD4

16 CTS2 36 CTS4

17 DTR2 37 DTR4

18 RI2 38 RI4

19 GND 39 GND

20 NC 40 NC

(4) CPU FAN Connector(CN4)

A . Connector size : 1 X 4 = 4 Pin , 2.54mm ,180°, FAN Connector

B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 GND 3 Sense

2 +12V 4 NC

EBC 500 User’s Manual 19

(5) SYSTEM FAN1/FAN2 Connector(J1 , J5)

A . Connector size : 1 X 3 = 3 Pin , 2.54mm ,180°, FAN Connector
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 GND 3 Sense

2 +12V

(6) USB 2.0 , 0/1/4/5 Connector (J4 , J6 )

A . Connector size : 1 X 6 = 6 Pin , 2.0mm ,180°, JST Connector
B . Connector location

C .Connector pin definition

Pin Definition Pin Definition

1 +5VSB 4 Data 1-/Data 5-

2 Data 0-/Data 4- 5 Data 1+/Data 5+

3 Data 0+/Data 4+ 6 GND

(7) USB 2.0 , 2/3 Connector (CN9)

A . Connector size : 1 X 6 = 6 Pin , 15.2x16.8x17mm, 90°, FEMALE
B . Connector location

C .Connector pin definition

Pin Definition Pin Definition

1 +5VSB 5 +5VSB

2 Data 2- 6 Data 3-

3 Data 2+ 7 Data 3+

4 GND 8 GND

EBC 500 User’s Manual 20

(8) IDE Connector Primary (CN8)

A . Connector size : 2 x 22 = 44pins,2.0mm, 180°,BOX Header
B . Connector location

C. Connector pin definition

Pin Definition Pin Definition

1 Reset# 23 IOW#

2 GND 24 GND

3 Data 7 25 IOR#

4 Data 8 26 GND

5 Data 6 27 IOCHRDY

6 Data 9 28 GND

7 Data 5 29 DMA ACK#

8 Data 10 30 GND

9 Data 4 31 Interrupt

10 Data 11 32 NC

11 Data 3 33 DiskAddress 1

12 Data 12 34 DMA66 Detect

13 Data 2 35 DiskAddress 0

14 Data 13 36 DiskAddress 2

15 Data 1 37 HDCCS1#

16 Data 14 38 HDCCS3#

17 Data 0 39 HDD Active #

18 Data 15 40 GND

19 GND 41 +5V

20 NC 42 +5V

21 DMA REQ 43 GND

22 GND 44 GND

EBC 500 User’s Manual 21

(9) Compact Flash Connector (CN7)

A . Connector size : Compact Flash Socket 50 Pin Connector
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 GND 26 GND

2 Data 3 27 Data 11

3 Data 4 28 Data 12

4 Data 5 29 Data 13

5 Data 6 30 Data 14

6 Data 7 31 Data 15

7 HDCCS1# 32 HDCCS3#

8 GND 33 N/C

9 GND 34 IOR#

10 GND 35 IOW#

11 GND 36 +5V

12 GND 37 Interrupt

13 +5V 38 +5V

14 GND 39 CF_CSEL#

15 GND 40 NC

16 GND 41 Reset#

17 GND 42 IOCHRDY

18 Disk Address 2 43 DMA REQ

19 Disk Address 1 44 DMA ACK#

20 Disk Address 0 45 HDD Active#

21 Data 0 46 DMA66 Dectec

22 Data 1 47 Data 8

23 Data 2 48 Data 9

24 NC 49 Data 10

25 GND 50 GND

EBC 500 User’s Manual 22

(10) GPIO (J10)

A . Connector size : 2X5 = 10 PIN , 2.0mm , 180° , PIN Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 +5V 6 GP25_D_OUT1(PIN22)

2 GND 7 GP22_D_IN2(PIN25)

3 GP20_D_IN0(PIN27) 8 GP26_D_OUT2(PIN21)

4 GP24_D_OUT0(PIN23) 9 GP23_D_IN3(PIN24)

5 GP21_D_IN1(PIN26) 10 GP27_D_OUT3(PIN20)

*Digital I/O Used Port 801

Output Input

O0 GP24_D_OUT0(PIN23) I0 GP20_D_IN0(PIN27)

O1 GP25_D_OUT1(PIN22) I1 GP21_D_IN1(PIN26)

O2 GP26_D_OUT2(PIN21) I2 GP22_D_IN2(PIN25)

O3 GP27_D_OUT3(PIN20) I3 GP23_D_IN3(PIN24)

(11) Disk On Module External Power (J11)

A . Connector size : 1X2 = 2 PIN , 2.5mm , 180°, JST Connector

B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 +5V 2 GND

(12) 82573L LAN1 / LAN2 LINK 100LED(JP15 /JP21)

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180° , PIN Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 +3VSB 2 Speed100#

EBC 500 User’s Manual 23

(13) 82573L LAN1 /LAN2 LINK 1000LED (JP17/JP19)

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180° , PIN Header

B . Connector location

C .Connector pin definition

Pin Definition Pin Definition

1 +3VSB 2 Speed1000#

(14) 82573L LAN1 / LAN2 Activity LED (JP16/JP18)

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180° , PIN Header

B . Connector location

C .Connector pin definition

Pin Definition Pin Definition

1 +3VSB 2 Activity#

(15) IR (JP7)

A . Connector size : 1X5 = 5 PIN , 2.54mm , 180°, PIN Header

B . Connector location

C .Connector pin definition
JP10 : IR

Pin Definition Pin Definition

1 +5V 4 GND

2 CIRRX 5 IRTX

3 IRRX

(16) System Thermal Connector( J3 , J7 )

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180°, PIN Header

B . Connector location

C .Connector pin definition

Pin Definition Pin Definition

1 Thermal Pin 2 Thermal GND

EBC 500 User’s Manual 24

(17) Key board + mouse Connector(KM1)

A . Connector size : MINI DIN 6 Pin Connector

B . Connector location

C .Connector pin definition

Pin Definition Pin Definition

1 Keyboard Data 5 +5VSB

2 Mouse Data 6 Keyboard Clock

3 GND 7 NC

4 NC 8 Mouse Clock

(18) 82573L LAN1 / LAN2 Connector (CN10 , CN11)

A . Connector size : RJ45 LAN Connector

B . Connector location

C .Connector pin definition

Pin Definition Pin Definition

1 MDI0P 7 MDI3P

2 MDI0N 8 MDI3N

3 MDI1P 9 ACTIVITY#

4 MDI2P 10 +5VSB

5 MDI2N 11 LINK100#

6 MDI1N 12 LINK1000#

(19)VGA Connector(VGA1)

A . Connector size : VGA D-SUB 15 Pin Connector

B . Connector location

C .Connector pin definition

Pin Definition Pin Definition

1 Red 9 +5V

2 Green 10 GND

3 Blue 11 NC

4 NC 12 DDC Data

5 GND 13 HSYNC

6 GND 14 VSYNC

7 GND 15 DDC Clock

8 GND

EBC 500 User’s Manual 25

(20) RTC Clear (JP6)

A . Connector size : 1X3 = 3 PIN , 2.54mm , 180° , PIN Header

B . Connector location

C . Connector pin definition

Normal Clear CMOS

JP9 *1-2 2-3

* = DEFAULT SET

(21) CF Card Master/Slave Select (JP14)

A . Connector size : 1 X 3 = 3 PIN , 2.54mm , 180° , PIN Header
B . Connector location
C . Connector pin definition

Master Slave

J13 *1-2 2-3

* = DEFAULT SET

(22) CCFL Connector(J2)

A . Connector size : 1 X 7 = 7 PIN , 2.5mm JST Connector.

B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 +5V 5 GND

2 +12V 6 GND

3 +12V 7 Backlight Enable

4 Backlight control 8

EBC 500 User’s Manual 26

(23) Panel Voltage Select(JP1)

A . Connector size : 1 X 3 = 3 PIN , 2.54mm , 180° , PIN Header

B . Connector location

C . Connector pin definition

PIN 1-2 *2-3

Def. +5V +3.3V

* = DEFAULT SET

(24) TV Output(JP2)

A . Connector size : 2 X 6 = 12 PIN , 2.0mm , 180° , PIN Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 NC 7 Y

2 GND 8 GND

3 NC 9 Pr

4 GND 10 GND

5 NC 11 Pb

6 GND

(25) Line_in Connector(JP13)

A . Connector size : 1X4 = 4 PIN , 2.54mm , 180°, PIN Header

B . Connector location

C .Connector pin definition
JP10 : IR

Pin Definition Pin Definition

1 LINE-IN-L 3 DETECT

2 GND 4 LINE-IN-R

(26) HDD LED(JP20)

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180° , PIN Header
B . Connector location

EBC 500 User’s Manual 27

C . Connector pin definition

Pin Definition Pin Definition

1 +5V 2 HDD_ACTIVE#

(27) SMBUS Connector(JP12)

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180° , PIN Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 SMB_CLK 2 SMB_DATA

(28) RESET Connector (JP11)

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180° , PIN Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 GND 2 RESET#

(29) POWER LED (JP8)

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180° , PIN Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 PULL UP TO +5V 2 GND

(30) PUSH BOTTON Connector (JP5)

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180° , PIN Header
B . Connector location

C . Connector pin definition

EBC 500 User’s Manual 28

Pin Definition Pin Definition

1 PWRBT 2 GND

(31) COM4 RS232 RI# Pin Power Select & RI# Pin Select(JP4)

A . Connector size : 1X5 = 5 PIN , 2.54mm , 180° , PIN Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 +5V 4 RI4#_SELECT

2 RI4#_SELECT 5 RI4#

3 +12V

(32) AT/ATX power mode select (JP3)

A . Connector size : 1X2 = 2 PIN , 2.54mm , 180° , PIN Header
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 GND 2 PSON#

EBC 500 User’s Manual 29

(33) POWER Connector (CON1)

A . Connector size : 2X5 = 10PIN , 4.2mm , FEMALE
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 PSON# 6 +5VSB

2 GND 7 +5V

3 GND 8 +5V

4 +12V 9 -12V

5 NC 10 GND

(34) ATX AUX POWER Connector (CON2)

A . Connector size : 2X2 = 2 PIN , 3.5mm , FEMALE r
B . Connector location

C . Connector pin definition

Pin Definition Pin Definition

1 GND 3 +12V

2 GND 4 +12V

1 PCI Device interrupt and BUS Assignments

Chipset Configuration

BUS/DEVIC/FUNCTION

PCI INT# REQ# /

GNT#

Special feature description

PCI Slot1 1 / 17 / 0

1 / 18 / 0

A,B,C,D

D,A,B,C

0,1

EBC 500 User’s Manual 30

2.6 Power consumption ( Unit : A )

Chipset Vcore

Yonah

CPU(1.

2V)

VTT

+1.05

V

+1.8V +0.9V +1.5V +2.5V +3.3V +1.2V +3.3V

SB

+5VSB +5V

Total Current

(Unit: A )

36 8 10 1 13.4 0.6 8.12 1.6 0.35 1.7 8.5

Total Watt

(Unit: W )

43.2 8.4 18 0.9 20.1 1.5 26.8 1.92 1.155 8.5 42.5

Transfer

Votage (Unit:V)

+12V +5V +5V +5V +5V +5V +5V 3VSB 5VDUAL

Power supply must consumed watts and currents

Power Type

+12V +5V +5VSB

Consumed watts(Item: W ) 43.2 121.2 11.5

Consumed currents (Item A ) 3.6 24.24 2.3

Actually required currents (Item

A/0.8 )

4.5 30.3 2.85

EBC 500 User’s Manual 31

Chapter 3

Expansion

EBC 500 User’s Manual 32

3.1 System Memory

EBC 500 incorporates Intel 945GM chipset supports up to 4GB un-buffered non-ECC DDR

533/667 SDRAM.

3.2 Installing DIMM

To install DIMM

1. Make sure the two handles of the DIMM sockets are in the “open” position, i.e. the handles stay
outward.

Figure3-1: How to Install DIMM (1)

2. Slowly slide the DIMM modules along the plastic guides in the both ends of the socket.

Figure 3-2: How to Install DIMM (2)

EBC 500 User’s Manual 33

3. Then press the DIMM module down right into the socket, until a click is heard. That means the

two handles automatically locked the memory modules into the right position of the DIMM socket.

Figure 3-3: How to Install DIMM (3)

4. To take away the memory module, just push the both handles outward, the memory module

will be ejected by the mechanism in the socket.

Figure 3-4: How to Install DIMM (4)

EBC 500 User’s Manual 34

3.3 Installing Compact Flash

1. To install a Compact Flash memory card into EBC 500, align the notches on the card with the

Compact Flash socket in the EBC 500. Then firmly insert the card into the socket until it is
completely seated.

Figure 3-5: How to Install Compact Flash Memory (1)

2. To remove the Compact Flash memory card from EBC 500, pull out the memory card from the

Compact Flash socket.

Figure 3-6: How to Uninstall Compact Flash Memory (2)

EBC 500 User’s Manual 35